New low-Q2 measurements of the γ N (1232) Coulomb quadrupole form factor, pion cloud parametrizations and Siegert's theorem

Abstract

The novel measurements of the γ N (1232) Coulomb quadrupole form factor in the range Q2=0.04--0.13 GeV2 changed the trend of the previous data. With the new data the electric and Coulomb form factors are both in remarkable agreement with estimates of the pion cloud contributions to the quadrupole form factors at low Q2. The pion cloud contributions to the electric and Coulomb form factors can be parametrized by the relations GE GEn/ (1 + Q22M(M-M)) and GC GEn, where GEn is the neutron electric form factor, and M, M are the nucleon and masses, respectively. Those parametrizations are in full agreement with Siegert's theorem, which states that GE= M-M2M GC at the pseudothreshold, when Q2=-(M -M)2, and improve previous parametrizations. Also a small valence quark component estimated by a covariant quark model contributes to this agreement. The combination of the new data with the new parametrization for GE concludes an intense period of studying the γ N (1232) quadrupole form factors at low Q2, with the agreement between theory and data.